SU1166327A1 - Device for synchronising multchannel communication system - Google Patents

Abstract

STEREODECODER, containing the first multiplier in series, the first low pass filter and the DC amplifier, the second multiplier in series, the second low pass filter, and the threshold unit, the output of which is connected to the control input of the first key, the signal input of which is combined with the first input of the second multiplier as well as the second key, the third key and the stereo detector, the first input of which is connected to the output of the first key, and the second input of the stereo detector a is connected to the combined first th input of the first multiplier and a second input of the second multiplier. characterized in that, in order to increase the crosstalk between the channels, reduce harmonic distortion and the level of combinational interference, sequentially connected controlled oscillator of 4RHF signal (where N is an integer, f is the subcarrier frequency) is inserted into it, frequency divider by 4N , the phase shifter, whose input is combined with the signal input of the first key, the output of the phase shifter is connected to the second input of the first multiplier, and also the first, second and third frequency correction blocks are entered and connected in parallel About the first frequency correction block, the fourth key, the control input of which is combined with the control inputs of the first, second and third keys, the second and third keys are paired (L respectively the second and third frequency correction blocks, the inputs of which are connected respectively to the first and the second outputs of the stereo detector, the second input of which is connected to the output of the first frequency correction block. Bb / xaS channel A Canal output / a b

Description

The invention relates to radio engineering and can be used in broadcasting receiving and measuring stereo equipment with polar modulation.

The purpose of the invention is to increase the crosstalk between the channels, reduce harmonic distortion and the level of Raman interference.

The drawing shows a structural electrical circuit of a stereo decoder.

The stereo decoder contains the first multiplier 1, the first low-pass filter 2, the DC amplifier 3, the second multiplier 4, the second low-pass filter 5, the threshold unit 6, the first key 7, the Stereo decoder 8, the controlled signal generator 9 with a frequency. (where N is an integer, 1 is the subcarrier frequency), divider 10 frequencies by 4, N, phase shifter 11, first 12, second 13 and third 14 frequency correction blocks, second 15, third 16 and fourth 17 keys.

The stereo decoder works as follows.

When a complex stereo signal appears at the input of a stereo decoder, it goes through the second open key 17 to the input of the stereo detector 8, as well as to the first inputs of the first 1 and second 4 multipliers. The first multiplier 1 is a phase detector of a PLL system consisting of a first filter 2, an amplifier 3, a controlled oscillator 9, a divider 10 and a phase shifter 11. The multiplier 1 is designed as a key phase detector controlled by a sequence of square pulses with a duty cycle of two and frequency equal to the subcarrier frequency. This ensures a high linearity of the signal multiplication and, therefore, a minimum of combinational noise arising due to the interaction of the signals above the tonal part of the spectrum of the complex stereo signal with the suppressed subcarrier. The signal formed at the output of the first multiplier is fed to the first filter 2; which is a loopback filter of the PLL system. Changing the time constant of this filter with a constant loop gain, determined by the product of the transfer coefficients of all the blocks in the PLL loop, you can adjust the capture bandwidth. The amplifier 3 serves to obtain the required level of the control signal of the controlled oscillator 9. Since the transition of the modulating voltage through zero in the RCC causes subcarrier phase jumps of 180 °, repeated at twice the modulation frequency to eliminate the resulting ambiguity in the occurrence of signals in Channels A and B, the frequency of the oscillator 9 is selected at a lower

0 at least four times the subcarrier frequency.

From the controlled oscillator 9, the signal enters the divider 10. The signal obtained as a result of the division enters, at

phase shifter 11, providing a phase shift of 90 °. At the output of the phase shifter 11, a sequence of pulses is formed, which is fed to the second input of multiplier 1, thereby closing the PLL loop.

From the divider 10, the pulses generated by the PLL system are fed to the input of the first key 7 and to the second input of the second multiplier 4. At the output of the latter, a control signal appears which, through the second filter 5, goes to the threshold unit 6. If the KCC value and therefore , and the subcarrier input to the stereo decoder exceeds a certain level (sufficient for normal operation of the decoder), then the threshold unit 6 switches and issues a control signal to the first 7,

0 second 15 third 16 and fourth 17 keys. the first key 7 opens, the keys of the second 15, third 16, and the fourth 17 close, causing the signal from divider 10 to be sent to the second input of stereo decoder 8, and the KCC signal from the input of the decoder 8 to the first input of stereo decoder 8 through the first block 12 correction.

When tuning into a mono signal, the threshold unit 6, due to the absence

 at the first input of the second multiplier 4, the subcarrier signal goes into the initial state, thereby closing the first key 7 and opening the second 15, third 16 and fourth 17 keys. Wherein

5 mono signal, the first frequency correction unit 12 goes directly to the stereo detector 8 and then through the open second 15 and third 16 keys to the left and right channels.

Claims (1)

A STEREODECODER, comprising a series-connected first multiplier, a first low-pass filter and a DC amplifier, serially connected a second multiplier, a second low-pass filter and a threshold unit, the output of which is connected to the control input of the first key, the signal input of which is combined with the first input of the second multiplier, and also a second key, a third key and a stereo detector, the first input of which is connected to the output of the first key, and the second input of the stereo detector is connected to the combined first input the first multiplier and the second input of the second multiplier, characterized in that, in order to increase the transient attenuation between the channels, reduce harmonic distortion and the level of Raman noise, it introduces a series-connected controlled signal generator with a frequency of 4Nf „ _H (where · N is an integer, f _hlt - subcarrier frequency), 4N frequency divider, phase shifter, the input of which is combined with the signal input of the first key, the phase shifter output is connected to the second input of the first multiplier, and the first, second and a third frequency correction blocks and connected parallel to the first frequency correction unit a fourth key, the control input of which is combined with the administering _of per- Vågå inputs, second and third keys, wherein S second and third switches connected in parallel respectively with the second and third blocks of frequency correction inputs which are connected respectively to the first and second outputs of the stereo detector, the second input of which is connected to the output of the first frequency correction block. SU ..... 1166327>